A Hebrew University study finds light’s magnetic field plays a larger role in material behavior than believed, with implications for optical and quantum technologies.

Tokamak Energy’s Demo4 HTS magnet system has replicated fusion power plant magnetic fields at 11.8T, marking a key step ...

Researchers at the Hebrew University of Jerusalem discovered that the magnetic component of light plays a direct role in the ...

A wild idea has been proposed to generate electric power from Earth’s rotation with the help of magnetic fields. A new research has presented experimental evidence confirming a previously theorized ...

Traditionally, scientists believed that the charge polarity of the magnetosphere at the equator and the poles was the same, ...

Researchers have for the first time managed to use electricity to switch on magnetism in a material that’s normally non-magnetic. This could be a step towards making electronic components out of ...

Ames Laboratory scientists discovered magnetic interactions that could be the key to customizing how electrons flow through special materials. The results could impact future technological ...

Discover magnetricity, where magnetic monopoles create currents in spin ice, revolutionizing our understanding of magnetism. These crystals are made up of pyramids of charged atoms, or ions, arranged ...

In a proof-of-concept study published in Nature Physics, researchers drew magnetic squares in a nonmagnetic material with an electrified pen and then "read" this magnetic doodle with X-rays. The ...

Major industries such as modern microelectronics are based on the interaction between matter and electromagnetism. Electromagnetic signals can be processed and stored in specially tailored materials.

A tiny diving board can extract power from the magnetic fields around mains cables, according to Penn State university. The device is a magneto-electric-coupled magneto-mechano-electric (ME MME) ...